Abstract
The necessary performance characteristics of effective friction linings1–6) include a moderately high and temperature independent coefficient of friction (μ), high thermal resistance, high strength and distinct elasticity, low wear and abrasiveness, resistance to hydraulic fluids, gasoline and water, and little or no noise.
Keywords
Molybdenum Disulfide Friction Material Friction Element Brake Lining Friction Lining
These keywords were added by machine and not by the authors. This process is experimental and the keywords may be updated as the learning algorithm improves.
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References
- 1.Lancaster, J. K.: Plastics and Polymers, Dec. 1973, 297Google Scholar
- 2.Jacko, M. G., Rhee, S. K.: “Brake Linings and Clutch Facings”. In: Kirk-Othmer: Encyclopedia of Chemical Technology, Vol.4, P. 202, J. Wiley & Sons, N.Y. 1978Google Scholar
- 3.Hodge, J. C.: Plastics and Polymers, Feb. 1974, 27Google Scholar
- 4.Barth, B. P.: “Phenolic Resin Adhesives-Friction”, Chap. 23 in: Handbook of Adhesives, I. Skeist, ed. van Norstand, N.Y. 1977Google Scholar
- 5.Cordes, H.: “„Produktentwicklung am Beispiel von Bremsbelägen”, Dissertation TH Aachen, 1983Google Scholar
- 6.Tanaka, K., Veda, S., Nogodu, N.: “Fundamental Studies on the Brake Friction of Resin-Based Friction Materials”, Wear, 23, 349 (1973)CrossRefGoogle Scholar
- 7.Textar GmbH: Technical BulletinGoogle Scholar
- 8.Bohmhammel, H.:“„Entwicklung von Reibbelägen für Kupplungen und Bremsen”, Gummi, Asbest u. Kunststoffe: 11, 924 (1973); 12, 1063 (1973); 1, 34 (1974); 3, 183 (1974); 5, 370 (1974); 7, 524 (1974); 9, 738 (1974); 11, 926 (1974)Google Scholar
- 9.Bakelite GmbH: Technical BulletinGoogle Scholar
- 10.Noll, W.: Asbest. In: Ullmanns Encyclopädie d. techn. Chem., Vol.8, 4th Ed., Weinheim: Verlag Chemie 1976Google Scholar
- 11.Heidermanns, C., Kuhnen, C., Schutz, A., Prochaska, R.: Staub-Reinhaltung Luft 35, 433 (1975)Google Scholar
- 12.Gross, P., Braun, D. C.: Chem. Tech. 436 (1980)Google Scholar
- 13.N. N.: Chemical and Engineering News, April 1984, P. 9Google Scholar
- 14.Rütgerswerke AG: US-PS 4,373,038 (1983); US-PS 4, 384, 054 (1983)Google Scholar
- 15.Ferodo Ltd.: US-PS 4, 273, 699 (1981)Google Scholar
- 16.Liu, T., Rhee, S. K.: Wear 76, 213 (1978)CrossRefGoogle Scholar
- 17.Ho, T. L., Kennedy, F. E., Peterson, M. B.: “Evaluation of Aircraft Brake Materials”, American Society of Lubrication Engineers 22, 71 (1979)Google Scholar
- 18.Bill, R. C.: “Friction and Wear of Carbon-Graphite Materials for High Energy Brakes”, American Society of Lubrication Engineers 21, 268 (1978)Google Scholar
- 19.Manhattan Rubber: US-PS 2,025,951Google Scholar
- Ferodo Ltd.: FR-PS 722209Google Scholar
- Union Carbide Corp.: US-PS 1,416,492Google Scholar
- 20.BP Chemicals: Cellobond Phenolic Resins, Technical BulletinGoogle Scholar
- 21.Weintraub, M.H., Anderson, A.E., Gealev, R. L.: Polymer Science Technology 5 B, 623 (1974)Google Scholar
- 22.Union Carbide Corp.: US-PS 4, 316, 827 (1982)Google Scholar
- 23.Union Carbide Corp.: US-PS 4, 420, 571 (1983)Google Scholar
- 24.3M: US-PS 4, 395, 498 (1983)Google Scholar
- 25.Waldrom, G. W. J.: Institution of Mechanical Engineers, Conference Publication 1979 —11, P. 125Google Scholar
- 26.Back, L. S., Moran, D., Percival, S. J.: “Polymer Changes During Friction Material Performance”, Wear 41, 309 (1977)CrossRefGoogle Scholar
- 27.Jacko, M. G.: “Physical and Chemical Changes of Organic Disc Pads in Service”, Wear 46, 163 (1978)CrossRefGoogle Scholar
- 28.Dow, T.A.: “Thermoelastic Effects in Brakes”, Wear 59, 213 (1980)CrossRefGoogle Scholar
- 29.Lagedrost, J. F., Eldrige, E. A.: “Thermal Property Measurements in Brake Shoe Materials”, Institution of Mechanical Engineers, Conference Publications, 1979 —11, P. 111Google Scholar
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